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JP2753454B2 - Transport storage container - Google Patents

Transport storage container

Info

Publication number
JP2753454B2
JP2753454B2 JP7002109A JP210995A JP2753454B2 JP 2753454 B2 JP2753454 B2 JP 2753454B2 JP 7002109 A JP7002109 A JP 7002109A JP 210995 A JP210995 A JP 210995A JP 2753454 B2 JP2753454 B2 JP 2753454B2
Authority
JP
Japan
Prior art keywords
storage container
convex
concave
container
portions
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
JP7002109A
Other languages
Japanese (ja)
Other versions
JPH08192846A (en
Inventor
雅博 廣中
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Gifu Plastic Industry Co Ltd
Original Assignee
Gifu Plastic Industry Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Gifu Plastic Industry Co Ltd filed Critical Gifu Plastic Industry Co Ltd
Priority to JP7002109A priority Critical patent/JP2753454B2/en
Publication of JPH08192846A publication Critical patent/JPH08192846A/en
Application granted granted Critical
Publication of JP2753454B2 publication Critical patent/JP2753454B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

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  • Stackable Containers (AREA)

Description

【発明の詳細な説明】DETAILED DESCRIPTION OF THE INVENTION

【0001】[0001]

【産業上の利用分野】本発明は、例えば半導体のような
精密部品とか、書類や食料品などを収容して上下多段積
みされる運搬用収納容器に関する。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a transport container for storing precision parts such as semiconductors, documents, foodstuffs and the like, which are vertically stacked in multiple stages.

【0002】[0002]

【従来の技術】従来より、この種の運搬用収納容器とし
ては、例えば図6〜図8に示すように、底壁2と四側壁
3a〜3dとから成る容器本体1Aの対向する側壁3
a,3bの上フランジ4″の上面に、対向する側壁3
a,3bと直角な線Mと平行な方向に向けて位置決め用
の凹部7″を夫々形成すると共に、対向する側壁3a,
3bの下フランジ5″に該上側の凹部7″と嵌合する下
側の凸部6″を夫々形成し、上位の収納容器1′の下フ
ランジ5″の凸部6″と下位の収納容器1′の上フラン
ジ4″の凹部7″とを互いに嵌合させて上下に多段積み
する形態のものが知られており、また、図9に示す実公
昭54−14592号公報のように、収納容器1″の上
部のフランジに係止片fを適宜間隔を隔てて形成し、こ
れら係止片fにて上段の収納容器1″の底部周部を囲繞
して上段の収納容器1″の位置決めを行なう形態のもの
が知られている。
2. Description of the Related Art Conventionally, as this type of transport storage container, for example, as shown in FIGS. 6 to 8, opposing side walls 3 of a container body 1A comprising a bottom wall 2 and four side walls 3a to 3d.
a, 3b, on the upper surface of the upper flange 4 ",
The positioning recesses 7 ″ are formed in the direction parallel to the line M perpendicular to the side walls 3a, 3b.
3b, a lower flange 5 "is formed with a lower convex portion 6" to be fitted with the upper concave portion 7 ", respectively. The convex portion 6" of the lower flange 5 "of the upper storage container 1 'and the lower storage container are formed. There is known a configuration in which a concave portion 7 "of an upper flange 4" of 1 'is fitted to each other and stacked vertically in multiple stages. Further, as shown in Japanese Utility Model Publication No. 54-14592 shown in FIG. Locking pieces f are formed on the upper flange of the container 1 ″ at appropriate intervals, and these locking pieces f surround the bottom peripheral portion of the upper storage container 1 ″ and position the upper storage container 1 ″. Is known.

【0003】[0003]

【発明が解決しようとする課題】ところが、図6〜図8
に示す凹凸嵌合構造では、嵌合用の凸部6″と凹部7″
とが夫々同じ方向に且つ同じ角度で形成されているた
め、例えば上下多段積みした収納容器1′を運搬した
り、倉庫に保管したりする際に収納容器1′に対して凹
凸嵌合部6″,7″と平行な方向に外力に加わったり、
或いは収納容器1′の運搬途上で横方向の微振動が加わ
ったりした場合には、その外力や振動によって凹凸嵌合
部6,7の嵌合が外れ易くなり、上下に多段積みされた
収納容器1′が横ずれして荷崩れを起こす心配がある。
しかも、凸部6″と凹部7″との嵌合を容易にするため
は、一般に図8に示すように、凸部6″の外幅よりも凹
部7″の内幅の方を僅かに大きくして凹凸嵌合部6″,
7″に小さな隙間G(1mm程度)を確保しているが、
収納容器1′を例えば10段積みした場合は、垂線L
(図7)に対して約10mm(=1mm×10ケ)の全
体傾斜が生じ、さらに20段積みした場合は約20mm
(=1mm×20ケ)の全体傾斜が生じることとなり、
収納容器1′の横方向への傾斜角Hが大となり、収納容
器1′全体のバランスが悪くなって横ずれによる荷崩れ
が一層発生し易くなるという問題がある。また、収納容
器1′が成形品の場合には、容器成形後における物性に
よる収縮によって嵌合用の凸部6″と凹部7″とが合致
しなくなって、凸部6″と凹部7″との嵌合ができなく
なることがあり、これを考慮して必要以上に隙間Gを持
たせて成形しなければならなかった。
[0006] However, FIGS.
In the concavo-convex fitting structure shown in FIG.
Are formed in the same direction and at the same angle, respectively, so that, for example, when transporting the storage containers 1 ′ stacked vertically and storing them in a warehouse, the concave and convex fitting portions 6 are formed on the storage containers 1 ′. Applying external force in the direction parallel to ", 7"
Alternatively, in the case where the lateral micro-vibration is applied during the transportation of the storage container 1 ′, the fitting of the concave and convex fitting portions 6 and 7 is easily released by the external force and the vibration, and the storage containers stacked in the vertical direction are stacked. There is a concern that 1 'will shift sideways and collapse the load.
Further, in order to facilitate the fitting between the convex portion 6 "and the concave portion 7", generally, as shown in FIG. 8, the inner width of the concave portion 7 "is slightly larger than the outer width of the convex portion 6". And the uneven fitting portion 6 ″,
A small gap G (about 1 mm) is secured at 7 ",
When the storage containers 1 ′ are stacked in, for example, 10 stages, the perpendicular L
(FIG. 7), an overall inclination of about 10 mm (= 1 mm × 10) is generated, and about 20 mm when further stacked in 20 steps
(= 1 mm x 20) will be generated,
There is a problem that the inclination angle H of the storage container 1 'in the horizontal direction becomes large, the balance of the storage container 1' as a whole is deteriorated, and the collapse of the load due to the lateral displacement is more likely to occur. Further, when the storage container 1 'is a molded product, the fitting convex portion 6 "and the concave portion 7" do not match due to shrinkage due to physical properties after the container is formed, and the convex portion 6 "and the concave portion 7" do not match. In some cases, fitting cannot be performed, and in consideration of this, molding must be performed with a gap G more than necessary.

【0004】一方、図9に示すフランジに係止片fを形
成した収納容器1″においては、フランジの上に間隔を
隔てて立設した係止片fにて上段の収納容器1″の底部
周部を囲繞して上段の収納容器1″の位置決めを行なっ
ているため、収納容器1″の運搬途上で横方向からの振
動が加わった場合などにおいて係止片fに外力が集中す
ることとなり、しかも収納容器1″が成形品の場合には
係止片fの強度が弱く、外力によって係止片fが折損し
易くなるという問題がある。
On the other hand, in a storage container 1 "shown in FIG. 9 in which a locking piece f is formed on a flange, a bottom of the upper storage container 1" is formed by a locking piece f erected on the flange with a space therebetween. Since the upper storage container 1 "is positioned around the periphery, the external force concentrates on the locking piece f when the storage container 1" is conveyed and lateral vibration is applied during transportation. In addition, when the storage container 1 ″ is a molded product, there is a problem that the strength of the locking piece f is weak and the locking piece f is easily broken by an external force.

【0005】この結果、従来のいずれの収納容器1′,
1″においても、運搬途上などで荷崩れを起こし易く、
特に精密部品の運搬には適さないものであった。本発明
は、上記従来の課題に鑑みてなされたもので、その目的
とするところは、上下多段積みされた収納容器の横ずれ
による荷崩れを防いで、内容物の保護に万全を期すこと
ができるようにした運搬用収納容器を提供するにある。
As a result, any of the conventional storage containers 1 ',
Even at 1 ", it is easy to collapse during transportation.
In particular, it was not suitable for transporting precision parts. The present invention has been made in view of the above-mentioned conventional problems, and an object of the present invention is to prevent a collapse of a container caused by a lateral displacement of a vertically stacked storage container, thereby ensuring the protection of contents. It is an object of the present invention to provide a transport storage container as described above.

【0006】[0006]

【課題を解決するための手段】上記課題を解決するため
に、本発明は、底壁2と四側壁3a〜3dとから成る容
器本体1Aの対向する側壁3a,3bの各上縁部に、位
置決め用の上側の凸部6又は凹部7の一方が夫々形成さ
れ、これら上側の凸部6又は凹部7は、対向する側壁3
a,3b間を直角に結ぶ線Mに対して異なる角度をもっ
て傾斜して形成されると共に、対向する側壁3a,3b
の下縁部近傍には該上側の凸部6又は凹部7と嵌合する
下側の凹部7又は凸部6の一方が夫々形成された運搬用
収納容器であって、上記凸部6及び凹部7を夫々断面略
三角形状に形成すると共に、凸部6の稜線及び凹部7の
溝を容器本体1Aの中心部に向けてそれぞれ傾斜させ
成ることに特徴を有している。
In order to solve the above-mentioned problem, the present invention provides a container body 1A having a bottom wall 2 and four side walls 3a to 3d, each of which has an upper edge portion of an opposing side wall 3a, 3b. One of the upper convex portion 6 or the concave portion 7 for positioning is formed, respectively, and these upper convex portion 6 or the concave portion 7
a and 3b are formed to be inclined at different angles with respect to a line M connecting the right angles to each other, and opposing side walls 3a and 3b
In the vicinity of the lower edge portion, one of the lower concave portion 7 or the convex portion 6 to be fitted with the upper convex portion 6 or the concave portion 7 is formed, respectively.
A storage container, wherein each of the convex portion 6 and the concave portion 7 has a substantially
In addition to being formed in a triangular shape, the ridge line of the convex portion 6 and the concave portion 7
It is characterized in that the grooves are inclined toward the center of the container body 1A .

【0007】[0007]

【0008】[0008]

【作用】しかして本発明によれば、底壁2と四側壁3a
〜3dとから成る容器本体1Aの対向する側壁3a,3
bの各上縁部に、位置決め用の上側の凸部6(又は凹部
7)を夫々形成し、対向する側壁3a,3bの下縁部近
傍に該上側の凸部6又は凹部7と嵌合する下側の凹部7
(又は凸部6)を夫々形成し、凸部6及び凹部7を夫々
断面略三角形状に形成したから、収納容器1を上下多段
積みする際に、断面三角形状の凹部7内に断面三角形状
の凸部6が滑り込んで嵌合することで、どの方向から外
力が振動が加わっても凹凸嵌合部6,7の嵌合が外れる
心配がなく、多段積みした収納容器1の横ずれを確実に
防止できるものである。また凸部6の稜線及び凹部7の
溝を容器本体1Aの中心部に向けてそれぞれ傾斜させた
から、上段の収納容器1を水平方向に180°反転させ
て下段の収納容器1上に載置した時でも、凸部6と凹部
7とは常に嵌合できるようになり、収納容器1の方向を
自由に変えることができ、多段積みに要する時間短縮を
図ることができる。
According to the present invention, the bottom wall 2 and the four side walls 3a are provided.
Opposing side walls 3a, 3 of the container body 1A comprising
An upper convex portion 6 (or concave portion 7) for positioning is formed at each upper edge portion of the upper side portion b, and the upper convex portion 6 or concave portion 7 is fitted near the lower edge portion of the opposing side walls 3a, 3b. Lower recess 7
(Or convex portions 6) are respectively formed, and the convex portions 6 and the concave portions 7 are respectively formed.
Since the cross-section is formed in a substantially triangular shape, the storage container 1 is
When stacking, the triangular section is inserted into the recess 7 having the triangular section.
The protrusions 6 slide into and fit into each other, so that the fitting of the concave and convex fitting portions 6 and 7 is not disengaged even if an external force is applied from any direction. It can be prevented. Moreover, the ridge line of the convex portion 6 and the concave portion 7
The grooves were inclined toward the center of the container body 1A.
From above, the upper storage container 1 is turned 180 ° in the horizontal direction.
Even when placed on the lower storage container 1, the projection 6 and the recess
7, so that the direction of the storage container 1 can be changed.
Can be changed freely, reducing the time required for multi-stacking
Can be planned.

【0009】[0009]

【実施例】以下、本発明の実施例を図面に基づいて説明
する。本実施例の運搬用収納容器1は、図1及び図2に
示すように、フラットな底壁2と、この底壁2の端部か
ら立設された四側壁3a〜3dとで上方に開口した合成
樹脂製の容器本体1Aが構成されている。容器本体1A
の四側壁3a〜3dの上縁部には、容器本体1Aの外側
に向けて上フランジ4が突設されており、上フランジ4
の対向する2辺4a,4bの上面に、各辺4a,4bの
長さ方向に間隔をあけて3個の位置決め用の凸部6,
6′が夫々形成されている。これら凸部6,6′は夫々
断面三角形状に形成されると共に、両側に位置する凸部
6,6が対向する側壁3a,3b間を直角に結ぶ線Mに
対して異なる角度をもって夫々傾斜している。本実施例
では、両側に位置する凸部6,6の夫々の稜線が容器本
体1Aの上方開口の中心点Nに向けて約45°の角度θ
1 ,θ2 で夫々傾斜している。換言すれば、容器本体1
Aの中心点Nを通過して放射状に延びた放射線上に凸部
6,6′の稜線が夫々形成されている。尚、中央側に位
置する凸部6′の稜線は前記各凸部6,6と異なる角度
(対向する側壁3a,3b間を直角に結ぶ線Mと平行な
角度)で容器本体1Aの上方開口の中心点Nに向けられ
ている。
Embodiments of the present invention will be described below with reference to the drawings. As shown in FIGS. 1 and 2, the transport storage container 1 of the present embodiment is opened upward with a flat bottom wall 2 and four side walls 3 a to 3 d erected from the end of the bottom wall 2. A synthetic resin container body 1A is formed. Container body 1A
An upper flange 4 protrudes toward the outside of the container body 1A from upper edges of the four side walls 3a to 3d.
On the upper surface of two opposing sides 4a, 4b, three positioning projections 6, spaced apart in the length direction of each side 4a, 4b,
6 'are formed respectively. These convex portions 6, 6 'are each formed in a triangular cross section, and each of the convex portions 6, 6 located on both sides is inclined at a different angle with respect to a line M connecting the opposing side walls 3a, 3b at right angles. ing. In the present embodiment, each ridge line of the convex portions 6 and 6 located on both sides has an angle θ of about 45 ° toward the center point N of the upper opening of the container body 1A.
1 and θ 2 respectively. In other words, the container body 1
The ridges of the convex portions 6, 6 'are formed on the radiation radially extending through the center point N of A. The ridge line of the convex portion 6 'located at the center side has an upper opening of the container body 1A at an angle different from that of each of the convex portions 6 and 6 (an angle parallel to a line M connecting the opposed side walls 3a and 3b at right angles). To the center point N of

【0010】一方、容器本体1Aの四側壁3a〜3dの
下縁部には、容器本体1Aの底壁2の端部に連なって容
器本体1Aの外側に向けて下フランジ5が突設されてお
り、下フランジ5の下面における前記上側の凸部6,
6′と夫々対応する位置に、該上側の凸部6,6′と上
下に嵌合する断面三角形状の溝状の凹部7,7′が夫々
形成されている。これら凹部7,7′の溝の形成方向は
上側の凸部6,6′と同じ方向に且つ同じ角度で傾斜し
ており、換言すれば、容器本体1Aの中心点Nを通過し
て放射状に延びた放射線上に沿って凹部7,7′の溝が
夫々形成されていいる。これにより、複数の収納容器1
を上下に多段積みした際に、上位に位置する収納容器1
の下フランジ5の各凹部7,7′に対して下位に位置す
る収納容器1の上フランジ4の各凸部6,6′を上下に
嵌合させることができ、凹凸嵌合部6,7;6′,7′
によって各収納容器1の横ずれを防止できる構造となっ
ている。
On the other hand, a lower flange 5 is provided at the lower edge of the four side walls 3a to 3d of the container body 1A so as to be connected to the end of the bottom wall 2 of the container body 1A toward the outside of the container body 1A. And the upper convex portion 6 on the lower surface of the lower flange 5.
At positions corresponding to 6 ', groove-shaped concave portions 7, 7' having a triangular cross-section are formed to fit vertically with the upper convex portions 6, 6 '. The grooves are formed in the recesses 7 and 7 ′ in the same direction and at the same angle as the upper protrusions 6 and 6 ′. In other words, the grooves 7 and 7 ′ radially pass through the center point N of the container body 1 A. The grooves of the recesses 7, 7 'are respectively formed along the extended radiation. Thereby, the plurality of storage containers 1
When the containers are stacked one above the other,
The projections 6, 6 ′ of the upper flange 4 of the storage container 1, which is positioned lower than the recesses 7, 7 ′ of the lower flange 5, can be fitted up and down. 6 ', 7'
Thereby, a lateral displacement of each storage container 1 can be prevented.

【0011】ここで、断面三角形状の凸部6,6′と凹
部7,7′とを夫々嵌合し易くするために、また、収納
容器1の材質(成形品)による収縮を考慮して、図2
(a)に示すように、上側の凸部6(6′も同様)の角
度w1 と下側の凹部7(7′も同様)の角度w2 とをw
1 <w2 の関係に設定するのが好ましく、また、上フラ
ンジ4の収縮変形によるガタツキの発生を防止するため
に、凸部6,6′の高さtと凹部7,7′の深さdとを
t>dの関係に設定するのが好ましい。さらに、図3
(a)に示すように、凸部6と凹部7とを補強リブ12
で連結して、凹凸嵌合部6,7の強度向上を図るように
してもよい。尚図3(b)は側壁外面に凹設されるバー
コード表示部11を示し、同(c)は上フランジ4の断
面形状を示し、同(d)は水抜き孔10を示すと共に、
この水抜き孔10は断面鉤状に成形される上フランジ4
の成形時における成形用金型(コア)の転倒又はずれ防
止用の位置決め孔としての機能も併せ持っている。また
同(e)は凸部6の断面形状を示している。
Here, in order to facilitate the fitting of the projections 6 and 6 'and the recesses 7 and 7', each having a triangular cross section, and taking into consideration shrinkage due to the material (molded product) of the storage container 1. , FIG. 2
(A), the the angle w 2 'of the recess 7 of the angle w 1 and lower (as well (7 over the convexity 6 6)' as well) w
It is preferable to set the relation of 1 <w 2. In order to prevent the upper flange 4 from rattling due to shrinkage deformation, the height t of the convex portions 6 and 6 ′ and the depth of the concave portions 7 and 7 ′ are set. It is preferable to set d and t in a relationship of t> d. Further, FIG.
As shown in (a), the convex portion 6 and the concave portion 7 are
To improve the strength of the concave and convex fitting portions 6 and 7. 3 (b) shows a bar code display portion 11 recessed on the outer surface of the side wall, FIG. 3 (c) shows a cross-sectional shape of the upper flange 4, and FIG.
The drain hole 10 is formed in the upper flange 4 having a hook-shaped cross section.
It also has a function as a positioning hole for preventing the molding die (core) from falling or displacing at the time of molding. (E) shows the cross-sectional shape of the convex portion 6.

【0012】しかして、収納容器1内に内容物Pを収容
して上下に多段積みする際に、下位側の収納容器1の上
フランジ4の凸部6,6′と上位側の収納容器1の下フ
ランジ5の凹部7,7′とを夫々嵌合させることによ
り、収納容器1を上下に必要な数だけ積み重ねて運搬し
たり、或いは倉庫に保管したりすることができる。この
とき、例えば収納容器1に対して凹凸嵌合部6,7と平
行な方向に外力が加わったり、或いは運搬途上で横方向
の微振動が加わったりした場合であっても、例えば図4
の矢印Xで示す一方の側壁3aの凹凸嵌合部6,7の横
ずれはこの凹凸嵌合部6,7と傾斜角の異なる他方の側
壁3bの凹凸嵌合部6,7で防止でき、また図4の矢印
Yで示す他方の側壁3bの凹凸嵌合部6,7の横ずれ
は、前記一方の側壁3aの凹凸嵌合部6,7で防止で
き、さらに凹凸嵌合部6′,7′の横ずれは前記各凹凸
嵌合部6,7で防止でき、結果としてどの方向から外力
や振動が加わっても凹凸嵌合部6,7の嵌合が外れる心
配がない。しかも、位置決め用の凸部6と凹部7とを夫
々傾斜させて形成したことにより、フランジ幅を大きく
することなく凹部7と凸部6の長さを夫々長くでき、こ
れに伴い凸嵌合部6,7の嵌合面積が増加して、収納容
器1の嵌合力を高めることができる。
When the contents P are stored in the storage container 1 and stacked vertically, the convex portions 6 and 6 'of the upper flange 4 of the lower storage container 1 and the upper storage container 1 are stacked. By fitting the recesses 7 and 7 'of the lower flange 5 respectively, the necessary number of storage containers 1 can be stacked and transported vertically or stored in a warehouse. At this time, for example, even when an external force is applied to the storage container 1 in a direction parallel to the concave and convex fitting portions 6 and 7 or a slight vibration in the horizontal direction is applied during transportation, for example, FIG.
The lateral displacement of the concave and convex fitting portions 6 and 7 of one side wall 3a indicated by the arrow X can be prevented by the concave and convex fitting portions 6 and 7 of the other side wall 3b having different inclination angles from the concave and convex fitting portions 6 and 7. 4 can be prevented by the concave and convex fitting portions 6 and 7 of the one side wall 3a, and the concave and convex fitting portions 6 'and 7' can be prevented. Can be prevented by the concave and convex fitting portions 6 and 7, and as a result, there is no fear that the concave and convex fitting portions 6 and 7 may be disengaged even when an external force or vibration is applied from any direction. Moreover, since the positioning projection 6 and the recess 7 are formed to be inclined, the length of the recess 7 and the length of the projection 6 can be increased without increasing the flange width. The fitting areas 6 and 7 increase, and the fitting force of the storage container 1 can be increased.

【0013】その結果、上下多段積みされた収納容器1
の荷崩れによる内容物Pの落下、損壊を招くおそれがな
くなり、内容物Pの保護に万全を期すことができる。し
かも、収納容器1が成形品の場合には、成形金型の一部
(凸部6と凹部7が夫々形成される部位)を設計変更す
るだけで、本発明の収納容器1を容易に形成できるの
で、成形金型の設計を大きく変更する必要がなく、コス
トの増加を抑えることができるものである。
As a result, the storage containers 1 which are stacked in upper and lower stages
It is possible to prevent the contents P from being dropped or damaged due to the collapse of the cargo, and to ensure the protection of the contents P. Moreover, when the storage container 1 is a molded product, the storage container 1 of the present invention can be easily formed only by changing the design of a part of the molding die (the portion where the convex portion 6 and the concave portion 7 are respectively formed). Therefore, it is not necessary to largely change the design of the molding die, and it is possible to suppress an increase in cost.

【0014】しかも、容器本体1Aの中心点Nを通過し
て放射状に延びた放射線上に一対の以上(本実施例では
三対)の位置決め用の凸部6,6′と凹部7,7′とを
夫々形成したことにより、収納容器1を多段積みする際
に、上段の収納容器1を中心点Nを軸にして水平方向に
180°反転させた場合でも下段の収納容器1の上に嵌
合させることができる。つまり、上段の収納容器1を水
平方向に180°反転させた2つの状態のいずれの状態
においても下段の収納容器1との嵌合が可能になるの
で、多段積みに要する時間短縮等を図ることができると
共に、上下に多段積みされた収納容器1に対して横方向
から外力や振動が加わってもこれら外力や振動を各凹凸
嵌合部6,7;6′,7′によって均等に受け止めるこ
とができる構造となり、収納容器1の横ずれによる荷崩
れをより効果的に防止できるものである。
In addition, a pair of (three pairs in this embodiment) positioning convex portions 6, 6 'and concave portions 7, 7' are provided on the radiation radially extending through the center point N of the container body 1A. When the storage containers 1 are stacked in a multi-stage manner, they are fitted on the lower storage container 1 even when the upper storage container 1 is turned 180 ° in the horizontal direction around the center point N. Can be combined. In other words, in any one of the two states where the upper storage container 1 is inverted by 180 ° in the horizontal direction, the lower storage container 1 can be fitted, so that the time required for multi-stacking can be reduced. And even if external force or vibration is applied to the storage containers 1 stacked vertically in a lateral direction, the external force or vibration is uniformly received by the concave and convex fitting portions 6, 7; 6 ', 7'. And the collapse of the load due to the lateral displacement of the storage container 1 can be more effectively prevented.

【0015】ところで、従来では嵌合用の凸部と凹部と
が断面四角形状であることから、凸部と凹部とを隙間を
持たせて嵌合させた場合(図7参照)において、多段積
みの収納容器全体の横方向へのガタツキの発生は避けら
れず、荷崩れを起こし易いのに対して、本実施例では、
位置決め用の凸部6,6′と凹部7,7′の断面形状を
夫々三角形状としたことにより、凹凸嵌合部6,7に隙
間が生じなくなり、多段積みした収納容器1全体の振
動、がたつきの発生を効果的に防止することができ、収
納容器1の荷崩れはもとより、収納容器1の微振動をも
同時に防止できる。しかも、上側の凸部6,6′の角度
1 を下側の凹部7,7′の角度w2 より小さくしたこ
とで、成形品(収納容器1)の収縮に対応でき、且つ、
凸部6,6′の高さtを凹部7,7′の深さdより高く
したことで、上フランジ4の収縮変形によるガタツキの
発生を防止することができる。このように凸部6,6′
と凹部7,7′の断面形状を三角形状としたことによっ
て、容器本体1Aの成形後の物性による収縮から生じる
凹凸寸法の嵌合ずれを防止することができると共に、重
量物を収納した場合には凸部6,6′と凹部7,7′と
が噛み合い、多段積みの際の嵌合外れを確実に防止でき
るようになる。そのうえ、図1に示すように、底壁2の
下面側に多数のリブ13を縦横マトリックス状に形成し
たことにより、少ない材料で底壁2全体の強度向上を図
ることができるという利点もある。
Conventionally, since the fitting projection and the recess are rectangular in cross section, when the projection and the recess are fitted with a gap therebetween (see FIG. 7), a multi-stage stacking is required. While the occurrence of rattling in the lateral direction of the entire storage container is unavoidable and is likely to collapse, in the present embodiment,
Since the cross-sectional shapes of the positioning projections 6 and 6 'and the depressions 7 and 7' are each triangular, no gap is formed in the concave and convex fitting portions 6 and 7, so that the vibration of the entire storage container 1 stacked in multiple stages can be reduced. The occurrence of rattling can be effectively prevented, and not only the collapse of the storage container 1 but also the minute vibration of the storage container 1 can be prevented at the same time. Moreover, by 'an angle w 1 of the recesses 7,7 of the lower' over the convexity 6,6 and smaller than the angle w 2 of the can corresponding to the shrinkage of the molded article (container 1), and,
By setting the height t of the convex portions 6 and 6 'higher than the depth d of the concave portions 7 and 7', it is possible to prevent rattling due to contraction deformation of the upper flange 4. Thus, the convex portions 6, 6 '
By making the cross-sectional shape of the recesses 7 and 7 'triangular, it is possible to prevent misalignment of the concave and convex dimensions caused by shrinkage due to physical properties after molding of the container body 1A, and to prevent a heavy object from being stored. The projections 6, 6 'and the recesses 7, 7' are engaged with each other, so that the fitting can be securely prevented from being disengaged in the case of multi-stacking. In addition, as shown in FIG. 1, by forming a large number of ribs 13 on the lower surface side of the bottom wall 2 in a vertical and horizontal matrix, there is an advantage that the strength of the entire bottom wall 2 can be improved with a small amount of material.

【0016】[0016]

【0017】また、前記実施例では容器本体1Aの上フ
ランジ4に凸部6,6′、下フランジ5に凹部7,7′
を設けたが、上フランジ4側に位置決め用の凹部7,
7′、下フランジ5側に該凹部7,7′と嵌合する凸部
6,6′を設けるようにしてもよい。尚、凸部6,6′
及び凹部7,7′の断面形状は、三角形状に限られず、
四角形状その他の形状であってもよく、要するに、上下
に嵌合可能で且つ傾斜可能な形状であればよい。
In the above embodiment, the upper flange 4 of the container body 1A has convex portions 6, 6 ', and the lower flange 5 has concave portions 7, 7'.
Provided on the upper flange 4 side.
7 ', and convex portions 6, 6' fitted to the concave portions 7, 7 'may be provided on the lower flange 5 side. In addition, convex part 6, 6 '
And the cross-sectional shape of the concave portions 7 and 7 'is not limited to a triangular shape.
It may have a square shape or any other shape. In short, any shape may be used as long as it can fit vertically and can be inclined.

【0018】[0018]

【発明の効果】上述のように、請求項1の発明では、底
壁と四側壁とから成る容器本体の対向する側壁の各上縁
部に、位置決め用の上側の凸部又は凹部の一方が夫々形
成され、これら上側の凸部又は凹部は、対向する側壁間
を直角に結ぶ線に対して異なる角度をもって傾斜して形
成されると共に、対向する側壁の下縁部近傍には該上側
の凸部又は凹部と嵌合する下側の凹部又は凸部の一方が
夫々形成されて成るから、位置決め用の凸部と凹部とに
傾斜を持たせるという簡単な構成によって、上下多段積
みした収納容器を運搬したり、倉庫に保管したりする際
に、収納容器に対して凹凸嵌合部と平行な方向に外力が
加わったり、或いは運搬途上で横方向の微振動が加わっ
たりした場合であっても、凹凸嵌合部の嵌合が外れない
構造となり、多段積みした収納容器の横ずれによる荷崩
れを防止することができる。しかも、位置決め用の凸部
と凹部とを夫々傾斜させたことで、凹部と凸部の嵌合面
積が増加し、収納容器の嵌合力を高めることができる。
その結果、上下多段積みされた収納容器の荷崩れによる
内容物の落下、損壊等を招くおそれがなく、内容物を十
分に保護できる運搬用収納容器を提供することができ
る。また、収納容器が成形品の場合には、成形金型の一
部(凸部と凹部が夫々形成される部位)を設計変更する
だけで、本発明の運搬用収納容器を容易に形成できるの
で、成形金型の設計を大きく変更する必要がなく、コス
トの増加を抑えることができるという効果を奏する。
た、位置決め用の凸部及び凹部を夫々断面略三角形状に
形成したから、容器を上下多段積みする際に、凸部と凹
部の間に隙間が生じなくなり、多段積みした収納容器全
体の振動、横方向のがたつきの発生を防止できると共
に、容器本体が成形品の場合も、成形後の物性による収
縮から生じる凹凸寸法の嵌合ずれを防止することがで
き、上下に多段積みされた収納容器に対して横方向から
外力や振動が加わった場合でも、横ずれによる荷崩れを
起こす心配がなくなる。さらに、凸部の稜線及び凹部の
溝を容器本体の中心部に向けてそれぞれ傾斜させたか
ら、上段の収納容器を水平方向に180°反転させて下
段の収納容器上に載置した時でも、凸部と凹部は確実に
嵌合でき多段積みに要する時間短縮を図ることができ、
作業が容易になる。また、凸部と凹部とを容器本体の中
心部に向けて傾 斜させたことで、上下に多段積みされた
収納容器に対して横方向からの外力や振動が加わっても
これら外力や振動を各凸部、凹部によって均等に受け止
めることができ、収納容器の横ずれによる荷崩れ防止に
より効果的に防止できるものである。
As described above, according to the first aspect of the present invention, each of the upper edges of the opposing side walls of the container body composed of the bottom wall and the four side walls is provided with one of the upper convex portions or concave portions for positioning. Each of the upper convex portions or concave portions is formed to be inclined at a different angle with respect to a line connecting the opposing side walls at right angles, and the upper convex portion or the concave portion is formed near the lower edge of the opposing side wall. Since one of the lower concave portion or the convex portion to be fitted with the portion or the concave portion is formed respectively, the storage container stacked vertically and multi-tiered by a simple configuration in which the positioning convex portion and the concave portion are inclined. When transporting or storing in a warehouse, even if external force is applied to the storage container in a direction parallel to the concave and convex fitting portion, or if lateral microvibration is applied during transportation. , The structure of the fitting of the uneven fitting part does not come off, It is possible to prevent the cargo collapse due to lateral displacement of the saw the container. In addition, since the positioning protrusion and the recess are inclined, the fitting area between the recess and the protrusion is increased, and the fitting force of the storage container can be increased.
As a result, it is possible to provide a transport container capable of sufficiently protecting the contents without causing the contents to fall or damage due to the collapse of the load of the storage containers stacked vertically. Further, when the storage container is a molded product, the transportation storage container of the present invention can be easily formed only by changing the design of a part of the molding die (the portion where the convex portion and the concave portion are formed). Thus, there is no need to largely change the design of the molding die, and the effect of suppressing an increase in cost can be obtained. Ma
In addition, the convex and concave portions for positioning each have a substantially triangular cross section.
When the containers are stacked vertically,
There is no gap between the parts, and all storage containers
It is possible to prevent body vibration and rattling in the horizontal direction.
In addition, if the container body is a molded product,
It is possible to prevent the misalignment of the uneven dimensions caused by shrinkage.
Come, even if the external force is applied and the vibration from the horizontal direction with respect to the multi-stage stacked been container up and down, worry is not necessary to cause collapse of cargo by strike-slip. Furthermore, the ridge line of the convex part and the concave part
Whether the grooves are inclined toward the center of the container body
Then, flip the upper container 180 ° horizontally and lower
Even when placed on the storage container of the step, the convex and concave parts are securely
The time required for multi-stage stacking can be reduced,
Work becomes easier. Also, the protrusion and the recess are located inside the container body.
Towards eccentric part that was on an angle, which is a multistage stacked vertically
Even if external force or vibration is applied to the storage container from the lateral direction
These external forces and vibrations are evenly received by each protrusion and recess
To prevent collapse of cargo due to lateral displacement of the storage container
It can be more effectively prevented.

【0019】[0019]

【図面の簡単な説明】[Brief description of the drawings]

【図1】本発明の一実施例に用いられる運搬用収納容器
を示し、(a)は(b)のE−E線断面図、(b)は一
部切欠平面図である。
FIGS. 1A and 1B show a transport storage container used in an embodiment of the present invention, wherein FIG. 1A is a cross-sectional view taken along the line EE of FIG. 1B, and FIG.

【図2】(a)は図1(b)のF−F線断面図、(b)
は図1(b)のW−W線断面図である。
2A is a cross-sectional view taken along line FF of FIG. 1B, FIG.
FIG. 2 is a sectional view taken along line WW of FIG.

【図3】(a)は図1(b)のA−A線又はA′−A′
線断面図、(b)は図1(b)のB−B線断面図、
(c)は図2(a)のP′部拡大断面図、(d)は図1
(b)のD−D線断面図、(e)は図1(a)のQ部拡
大断面図である。
FIG. 3 (a) is an AA line or A'-A 'of FIG. 1 (b).
FIG. 1B is a cross-sectional view taken along the line BB of FIG.
2C is an enlarged sectional view of a portion P ′ in FIG. 2A, and FIG.
2B is a sectional view taken along line DD, and FIG. 2E is an enlarged sectional view of a portion Q in FIG.

【図4】同上の凸部と凹部の嵌合状態を説明する平面図
である。
FIG. 4 is a plan view for explaining a fitting state of a convex portion and a concave portion of the above.

【図5】 従来の収納容器の斜視図である。FIG. 5 is a perspective view of a conventional storage container .

【図6】 (a)は従来の収納容器の正面図、(b)は
従来の多段積みされた収納容器の傾斜状態の説明図であ
る。
FIG. 6A is a front view of a conventional storage container, and FIG.
It is explanatory drawing of the inclined state of the conventional multistage stacked storage container .

【図7】 従来の凹凸嵌合部の隙間の説明図である。FIG. 7 is an explanatory view of a conventional clearance of an uneven fitting portion .

【図8】 他の従来例を示し、(a)は正面図、(b)
は積み重ね状態の斜視図、(c)は部分拡大断面図であ
る。
8A and 8B show another conventional example, in which FIG. 8A is a front view and FIG.
Is a perspective view of a stacked state, and (c) is a partially enlarged sectional view .

【符号の説明】[Explanation of symbols]

1A 容器本体 2 底壁 3a〜3d 四側壁 6 凸部 7 凹部 N 中心点 DESCRIPTION OF SYMBOLS 1A Container main body 2 Bottom wall 3a-3d Four side walls 6 Convex part 7 Concave part N Center point

Claims (1)

(57)【特許請求の範囲】(57) [Claims] 【請求項1】 底壁と四側壁とから成る容器本体の対向
する側壁の各上縁部に、位置決め用の上側の凸部又は凹
部の一方が夫々形成され、これら上側の凸部又は凹部
は、対向する側壁間を直角に結ぶ線に対して異なる角度
をもって傾斜して形成されると共に、対向する側壁の下
縁部近傍には該上側の凸部又は凹部と嵌合する下側の凹
部又は凸部の一方が夫々形成されて成る運搬用収納容器
であって、位置決め用の凸部及び凹部を夫々断面略三角
形状に形成すると共に、凸部の稜線及び凹部の溝を容器
本体の中心部に向けてそれぞれ傾斜させて成ることを特
徴とする運搬用収納容器。
At least one of an upper convex portion or a concave portion for positioning is formed at each upper edge portion of an opposing side wall of a container body composed of a bottom wall and four side walls. A lower concave portion which is formed to be inclined at a different angle with respect to a line connecting the opposing side walls at a right angle and which is fitted with the upper convex portion or concave portion in the vicinity of a lower edge portion of the opposing side wall. A transport storage container having one of the convex portions formed therein.
And each of the positioning convex and concave portions has a substantially triangular cross section.
In addition to forming into the shape, the ridge line of the convex part and the groove of the concave part
A transport container characterized by being inclined toward the center of the main body .
JP7002109A 1995-01-10 1995-01-10 Transport storage container Expired - Fee Related JP2753454B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP7002109A JP2753454B2 (en) 1995-01-10 1995-01-10 Transport storage container

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP7002109A JP2753454B2 (en) 1995-01-10 1995-01-10 Transport storage container

Publications (2)

Publication Number Publication Date
JPH08192846A JPH08192846A (en) 1996-07-30
JP2753454B2 true JP2753454B2 (en) 1998-05-20

Family

ID=11520190

Family Applications (1)

Application Number Title Priority Date Filing Date
JP7002109A Expired - Fee Related JP2753454B2 (en) 1995-01-10 1995-01-10 Transport storage container

Country Status (1)

Country Link
JP (1) JP2753454B2 (en)

Family Cites Families (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH0423788Y2 (en) * 1987-03-20 1992-06-03
JPH0647778Y2 (en) * 1987-10-29 1994-12-07 岐阜プラスチック工業株式会社 Transport container

Also Published As

Publication number Publication date
JPH08192846A (en) 1996-07-30

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